Yes, according to current theories, quarks do temporarily lose mass when giving off gravitons. This is because the emission of gravitons, which are particles responsible for the force of gravity, requires energy and therefore can lead to a decrease in the mass of the quark.
The emission of gravitons affects the mass of a quark by decreasing it momentarily. This is because the emission of gravitons requires energy, and according to Einstein's famous equation E=mc², energy is equivalent to mass. Therefore, the energy used in the emission of gravitons leads to a decrease in the mass of the quark.
No, the mass of a quark cannot be completely lost through the emission of gravitons. This is because the mass of a quark is an intrinsic property and cannot be completely eliminated. However, the emission of gravitons can lead to a temporary decrease in the mass of a quark.
Yes, there are other factors that can affect the mass of a quark. For example, the interactions with other particles, such as gluons, can also lead to a temporary change in the mass of a quark. Additionally, the mass of a quark can also be affected by the Higgs field, which gives particles their mass.
The temporary loss of mass in quarks through graviton emission is measured using high-energy particle accelerators, such as the Large Hadron Collider. By colliding particles at high speeds, scientists can study the resulting particles and their properties, including the mass of quarks. Additionally, theoretical calculations and simulations are also used to understand the effects of graviton emission on quark mass.